Device and method for breeding, in particular for breeding insects

ABSTRACT

The invention relates to a device ( 1 ) and to a method for breeding insects. The device ( 1 ) is characterized in that the device ( 1 ) comprises: at least one stack ( 3 ) of boxes ( 2 ), which is located on a chassis ( 4, 5 ), and a gantry ( 6 ), the gantry ( 6 ) at least having a supply module ( 10 ), a cleaning module ( 11 ), an upward vertical transport ( 12 ), a downward vertical transporter ( 13 ), an upper transverse transporter ( 14 ) and a lower transverse transporter ( 15 ); in that a guide system, in particular a rail guide ( 7 ), is provided for the gantry ( 6 ) such that the gantry ( 6 ) can be moved to the at least two stacks ( 3 ) of boxes ( 2 ); and in that a conveying system is provided, in particular a conveyor belt ( 8 ), it being possible to convey boxes ( 2 ) from and to the at least one stack ( 3 ) of boxes ( 2 ) by means of the conveying system such that, by means of the gantry ( 6 ), cyclical restacking is enabled and supplying and cleaning of the insects within the boxes ( 2 ), within the at least one stack ( 3 ), is enabled; and in that boxes ( 2 ) can be put into and removed from the at least two stacks ( 3 ) of boxes ( 2 ) by means of the conveying system and the gantry ( 6 ).

The invention relates to a device and a method for automated breeding, in particular of insects.

From the prior art, inter alia WO 2019/053 439 A2 is known, said document relating mainly to a device for the recyclability of waste from insects as food for insect breeding, comprising, in this case, a waste module and a breeding module.

Furthermore, a device and a method for breeding insects for industrial series production of larvae from egg-laying mothers is known from the international patent application WO 2017/007310 A1. In this case, the device serves for breeding and producing larvae from egg-laying mothers, and in this case comprises an egg-laying region and a hatching region, which each comprise an individual food delivery system.

The international patent application WO 2014/171829 A1 also relates to a method and a device for breeding insects, a plurality of individual boxes being used. In this case, the method comprises the following steps:

Providing a plurality of boxes, filling at least some of the boxes of the plurality of boxes with a substrate which contains feed and insects in the immature state, as well as providing a climatic zone.

The method furthermore comprises a ventilation facility in which the plurality of boxes can be placed, providing a conveying system, and providing an observation system along the conveying system.

The method also includes providing a raw material supply station along the conveying system, and providing a ventilation system.

Furthermore, the known solution provides for periodic retrieval of at least one individual box of the plurality of boxes by the conveying system, from the climatic region, and a subsequent transfer of the box to the observation system.

The information relating to the substrate and the status of the insects in an individual box, obtained by the observation system, is evaluated and, on the basis thereof, instructions relating to the further breeding, harvesting or disposal of the insects in the individual boxes are issued.

A device for breeding larvae, comprising a plurality of culture dishes which are arranged in at least one stack of dishes, each stack comprising a plurality of planes of dishes, is known from the international patent application WO 2012/115 959 A2.

Each of said dishes contains an opening arranged at the top in order to be able to receive larvae and larvae food. Furthermore, the device comprises a food dispensing system which is adapted such that the larvae food can be dispensed automatically and individually onto the respective dish. The device also contains a water supply system which is adapted such that the dishes can be automatically supplied with water.

The international patent application WO 2018/029597 A1 discloses a technological conveyor belt for breeding and/or rearing of non-flying insects and/or larvae of insects, which is characterized in that the conveyor belt is an autonomous conveyor belt having side walls arranged laterally on both sides, which are arranged lengthways on the conveyor belt, the top edge thereof being curved inwards at least once, having a bend angle of the edge of no less than 30°, preferably 30° to 90°. The conveyor belt further comprises cross members which generally perpendicularly support the lateral side walls of the conveyor belt and connect the opposing profiled side walls, the profiled side walls also being bearing structural elements.

The longitudinal edges of the conveyor belt and the lateral side walls together form a trough profile, the mass of the insects located on the surface of the conveyor belt, together with possible additional food and excrement of the insects, exerting pressure on the longitudinal edges of the conveyor belt and the lateral side walls, as a result of which the cross members as well as the profiled transverse side walls consist of a material having efficient heat-conducting properties.

Furthermore, an establishment for breeding insects is known from the international patent application WO 2016/166 471 A1. This contains a first zone in which the insects to be bred are stored in containers during their growth, and a second zone comprising at least one station which is designed such that it is possible to perform a breeding-related task for the insects in the containers. In this case, the containers of the first zone are combined in stacks, which are referred to as a base unit. The first zone thus comprises pallet rack in which the basic units are arranged. The first zone is furthermore equipped with an automated device which is configured such that the base unit can be moved between the first zone and in interface with the second zone.

Proceeding from this prior art, the object of the invention is that of providing a device and a method for automated breeding of insect larvae until they are ready for harvest. This object is achieved by independent claim 1 and claim 16. Claims 2 to 15 relate to advantageous embodiments of the invention.

According to the preamble of claim 1, the invention relates to a device for automated breeding, in particular of insects, comprising a plurality of individual boxes which can be arranged in a stack comprising a plurality of planes of boxes, said boxes being filled with larvae and substrate which contains inter alia food.

The device according to the preamble of claim 1 furthermore comprises an observation system by means of which information relating to the substrate and the status of the insects in each individual box can be obtained, such that instructions, in the form of further breeding, harvest or disposal of the insects in the individual boxes, can be output on the basis of said information. The device also comprises a food dispensing system which is adapted such that the food can be dispensed automatically and individually into the respective box.

The invention according to independent claim 1 is characterized in that the device comprises at least one stack of boxes which is located on a chassis, and a gantry. The gantry contains at least one supply module, a cleaning module, an upward vertical transporter, a downward vertical transporter, an upper transverse transporter, and a lower transverse transporter.

The device according to the invention furthermore provides for a guide system, in particular a rail guide, for the gantry to be present, such that the gantry can be moved towards at least one stack of boxes, and in that a conveying system is present, in particular a conveyor belt, it being possible for boxes to be conveyed from and to the at least one stack of boxes by means of the conveying system. It is also conceivable for the boxes conveyed by the conveying system to be able to be positioned by a positioning mechanism, in particular by means of lifting magnets, on the gantry, for loading and unloading by the relevant chassis.

As a result, cyclical restacking, and supplying and cleaning of the insects inside the boxes, within at least one stack, is made possible by means of the gantry, and boxes in the at least one stack of boxes can be loaded and unloaded by means of the conveying system and the gantry.

In an advantageous embodiment, the invention for the device provides for the gantry to be constructed from a profile system, in particular from a profile system made of aluminum, and/or from a welded structure. This is advantageous in that the gantry can be individually adapted to the size of the boxes and the height of the stack.

In a further advantageous embodiment, the invention for the device provides for the upward vertical transporter of the gantry opposingly, individually in each case, at least two drive units, containing a linear belt drive as well as at least two lifting fingers on each drive. These are loadable in the event of the upward movement of the upward vertical transporter, and can thus absorb weight, in particular the weight of a box. The lifting fingers can also be pushed outwards during insertion of a box from the conveyor belt through the passive chassis, from below, as a result of which the hooking and unhooking for the transport of the boxes, by the upward vertical transporter, can be carried out passively.

This is advantageous in that the upward vertical transporter contains just two movable parts, i.e. the linear belt drive and the lifting finger, as a result of which reduced mechanical wear can be achieved, and the maintenance of the upward vertical transporter is made easier.

According to claim 4, the invention for the device provides for the downward vertical transporter, located on the gantry, to comprise opposingly, individually in each case, at least two drive units, containing at least two linear belt drives as well as at least two lifting pin arms comprising at least two lifting pins connected to a roller, and a roller guide comprising deflection rockers.

Furthermore, the invention according to claim 4 provides for the lifting pins of a lifting pin arm, which are connected to at least one roller, to be deflectable by the roller guide upon the downward movement of the downward vertical transporter, such that a box can be held and transported downward by means of said lifting pins.

In the case of the upward movement of the downward vertical transporter, the lifting pins connected to a roller can be deflected by at least one deflection rocker in the roller guide such that the downward vertical transporter can also be moved upward, without the lifting pins being extended in the process, and thus no box can be grasped.

A further box can also be received by means of a drive, for the downward movement of the downward vertical transporter, by the lifting pin arms and the lifting pins thereof connected to a roller, by means of the roller guide and the deflection rockers thereof.

This is advantageous in that a box can be both raised upward and conveyed downward by means of the downward vertical transporter.

This is achieved using just two movable parts, specifically a linear drive and the lifting pins of a lifting arm, which are connected to a roller, such that in this case too low mechanical stress and thus a long service life, as well as simple maintenance of the device, is ensured.

In another advantageous embodiment, the invention for the device provides for the transverse transporter above the gantry, to be achieved opposingly, individually in each case, by means of a linear belt drive, a lifting arm comprising at least two lifting receptacles, a roller on the lifting arm which is coupled by a linear shaft, and by means of a roller guide comprising at least two rockers. Furthermore, according to said advantageous embodiment the invention provides that, in the case of a movement of the lifting arm by a drive, in particular by means of a linear belt drive, comprising a roller, coupled by a linear shaft, along the roller guide, the lifting arm can be pivoted by means of a rocker on the roller guide, such that a box can be received and can be moved from left to right and/or from right to left.

The invention also provides, according to this advantageous embodiment, that a lifting arm can be deflected at a further rocker of the roller guide, by means of a roller fastened to the lifting arm by means of a linear shaft, such that a box can be deposited.

According to claim 6, the invention for the device provides for the transverse transporter below the gantry to provide, opposingly, individually in each case, a vertically oriented asymmetrical belt. This can be moved vertically by means of a horizontally oriented drive, the asymmetrical belt being of such a thickness, on one side, that a box can be grasped and moved from left to right and/or from right to left by means of a horizontally oriented drive, on account of the vertical movement of the asymmetrical belt. Thus, in this case too the lower transverse transporter is implemented by just two movable parts, the vertical drive and the asymmetrical belt, as a result of which the advantage of reduced mechanical wear and facilitated or reduced maintenance is achieved here too.

A further advantageous embodiment of the invention according to claim 7 is characterized in that the gantry comprises servomotors, and in that the active chassis contains a connection element, in particular a web, which is fastened to the Bowden cables that are fastened to the lifting fingers. The connection element can be actuated by the servomotors on the gantry such that the lifting fingers of the active chassis can be deflected outwards by actuation of the servomotors. As a result, a box ready for harvest can be unloaded onto a conveyor belt, through the active chassis, by means of the downward vertical transporter.

Here, too, the advantage is that the necessary movement of the active chassis is achieved by just one movable component, here, too, reduced wear of the mechanics being anticipated, as well as the associated lower maintenance costs of the device. It is also advantageous for the servomotors to be located on the gantry, since as a result it is not necessary for every active chassis to itself comprise servomotors, and thus a reduced use of material can be achieved, at a constant level of effectiveness, and the active chassis does not require its own power supply or separate actuation.

In a further advantageous embodiment, the gantry comprises a detection unit which comprises sensors, in particular heat sensors and humidity sensors, and/or a camera.

The parameters required for insect breeding, in particular humidity and temperature, which must prevail in a box for optimum breeding of insects, can be determined by means of the mentioned sensors and/or said detection unit.

In addition, images can also be captured by means of a camera, which images capture and reproduce the current state of the insects with supply materials in a box, it being possible for said captured images to be compared in each case with reference data stored in a database, such that the respective state of the insects with supply materials in a box can be determined, and the information thus obtained can be used for machine learning. Thus, the respective state of each individual box in at least two stacks can be determined by the detection unit of the gantry, by means of the device, resulting in the advantage that the optimal parameters for insect breeding can be monitored and adjusted.

According to claim 9, the invention for the device according to the invention provides for the boxes in each case comprise a double base and at least one suction opening between the bases.

Furthermore, the upper base of the double base is formed as a grating-like base, such that waste, in particular feces, fall downward through said grating-like base.

Said feces can be removed or suctioned away by the cleaning module, through the suction opening between the double base.

This is advantageous in that impurities do not remain in the substrate, as a result of which it is possible to achieve a higher hygiene standard for the insects, and it can thus be expected that the insects do not, or barely, need to be treated with medication. Furthermore, the waste resulting from the insect breeding can be easily removed from the box via the double base and the suction opening, and can optionally be used further, for example in the form of fertilizer.

In a further advantageous embodiment, the invention contains a cleaning module which comprises at least two suction devices, it being possible for the waste to be suctioned through the suction opening of a box, between the double base, by means of at least one suction device, and the skins of the larvae as well as any food residues and other waste present inside the box can be suctioned out during the upward transverse transport, and/or taken up by means of electrostatics, and/or removed by means of air separation, by means of at least one second suction device.

According thereto, during the transverse transport of a box, by the transverse transporter above the gantry, from the upwards stack to the downwards stack, the cleaning module can remove both the waste from the double base of the box, and the skins and food residues of the larvae inside the box. As a result, a hygienic environment for the insects inside the box is ensured, as a result of which possible disease of the insects to be bred can be counteracted.

According to claim 11, the invention for the device provides for the supply module to be divided into at least two containers. Each of said containers comprises an individual metering roller in each case, such that in the event of transverse transport by the upper transverse transporter, first substrate and subsequently food can be dispensed, in the amount required in each case, into the relevant box, by means of the adjustable advancement of the metering roller of the relevant container.

In another advantageous embodiment, the invention for the device provides for the boxes to comprise an RFID chip or another passive electronic chip, and/or a barcode, and/or a 2D matrix, such that data, in particular state data of the boxes, can be stored and retrieved, as a result of which it is possible to carry out evaluations and, if necessary instructions, preferably automatically, on the basis of said data.

This is advantageous in that information available on the chip, such as state data, number of the box, time within a stack, etc., can be read out and stored by means of a reader, in particular by means of a detection unit, as a result of which instructions, in particular unloading, cleaning of the box, or feeding of insects, can be carried out automatically, on the basis of said data.

In a further advantageous embodiment, the invention for the device provides for a station to be present for the gantry, in which the cleaning module can optionally be emptied, and in that the containers of the supply module can be refilled with the materials required in each case, in particular substrate and/or food. This therefore ensures further automation of the insect breeding.

According to claim 14, the invention for the device provides for the device according to claim 1, i.e. the at least two stacks of boxes comprising an active and a passive chassis in each case, and a conveyor belt under the active and passive chassis, and comprising a gantry having a rail guide, as well as according to the features of current claim 1, can be lined up one behind the other, lengthways, as often as desired, it being possible for at least one gantry to move over all the stacks that are lined up lengthways.

Furthermore, according to the advantageous embodiment the invention provides that said devices lined up lengthways can be lined up side-by-side.

This is advantageous in that the device can be adapted to the respective local conditions, in particular the length, width and height of an industrial building, as a result of which optimum use can be made of the local conditions.

In another advantageous embodiment, the invention for the device provides for at least one conveyor belt to be arranged orthogonally on the devices described in claim 14, such that said devices according to claim 14 can be supplied with new boxes comprising insects and supply materials from a store, by means of said orthogonal conveyor belt.

The advantageous embodiment also includes the possibility of boxes ready for harvest being able to be transported away from the devices into a store, by means of said at least one conveyor belt that is oriented orthogonally with respect to the device described in claim 14.

This is advantageous in that the transport and removal of new and ready-to-harvest boxes to and from devices takes place in a fully automated manner, by means of conveyor belts.

According to claim 16, the invention also provides a method in which the lowest box of the stack, in each case, which is located on the passive chassis, is raised, by at least one box height, by means of the upward vertical transporter. At the same time, the second box from bottom, from the stack of the active chassis, is raised by means of the downward vertical transporter, such that the lowest box of the stack is brought onto the active chassis by means of the lower transverse transporter, under the second raised by the upward vertical transporter.

The second from bottom box that is raised is also moved downward, by at least one box height, by means of the downward vertical transporter, the uppermost box of the stack, which is raised by one box height, by means of the upward vertical transporter, likewise being brought over the stack of boxes, located on the active chassis, by means of an upper transverse transporter.

During the transport of the box by means of the upper transverse transporter, the box comprising insects and the supply materials thereof is cleaned, and optionally equipped with corresponding supply materials, by means of a cleaning and supply module, and the described transport procedure is performed until all the boxes of the at least two stacks are cleaned and optionally equipped with corresponding supply materials, by means of a cleaning and supply module.

A box ready for harvest, the readiness of a box for harvest being determined by means of a detection unit, during the cleaning and equipping with supply materials, is conveyed through the stack of boxes, located on the active chassis, by means of the downward vertical transporter, until it reaches the active chassis, the active chassis being deflected outwards. As a result, the box ready for harvest is unloaded onto the conveyor belt by the active chassis, by means of the downward vertical transporter.

Likewise, a new box comprising insects and supply materials, which is conveyed under the passive chassis by means of the conveyor belt, is loaded, through the passive chassis, by means of the upward vertical transporter, the passive chassis being deflected outwards by means of the box, upon loading, into the stack of boxes located on the passive chassis, such that automated insect breeding is carried out.

The invention will be explained in greater detail in the following, with reference to an embodiment. In the drawings:

FIG. 1 is a perspective front view of the device comprising a gantry and two stacks of boxes containing insects,

FIG. 2 is a perspective front view of the gantry according to FIG. 1 without the two stacks of boxes,

FIG. 3a is a perspective view from above of the cleaning module of the gantry according to FIG. 1,

FIG. 3b is a perspective view from below of the cleaning module of the gantry according to FIG. 3 a,

FIG. 4a is a perspective view from above of the supply module of the gantry according to FIG. 1,

FIG. 4b is a cross-sectional view of the supply module of the gantry according to FIG. 4 a,

FIG. 5 is a perspective view of the passive chassis of the device according to FIG. 1,

FIG. 6a is a perspective view of the active chassis of the device according to FIG. 1,

FIG. 6b is a perspective detailed view of the active chassis of the device according to FIG. 6a , including a servomotor of the gantry,

FIG. 7 is a perspective front view of the upward vertical transporter according to FIG. 1,

FIG. 8a is a perspective front view of the downward vertical transporter according to FIG. 1, having retracted lifting pins,

FIG. 8b is a perspective front view of the downward vertical transporter according to FIG. 8a , having extended lifting pins,

FIG. 8c is a perspective rear view of the downward vertical transporter according to FIGS. 8a and 8b , having extended lifting pins,

FIG. 9 is a perspective front view of the lower transverse drive according to FIG. 1, and

FIG. 10 is a perspective front view of the upper transverse drive according to FIG. 1.

FIG. 1 is a perspective front view of the device 1, comprising a gantry 6 having at least two stacks 3 of boxes 2, which are filled with insects. In this case, the gantry 6 consists of a profile system 9 and comprises a supply module 10, a cleaning module 11, an upward vertical transporter 12, a downward vertical transporter 13, an upper transverse transporter 14, a lower transverse transporter 15, an active chassis 5, a passive chassis 4 (not shown further here), as well as a conveyor belt 8 which is arranged between the chassis 4, 5, and a rail guide 7 along which the gantry 6 can be moved.

The stack 3 of boxes 2 on the passive chassis 4 can be lifted, at least by a box height, by means of the upward vertical transporter 12, the second box 2 from the bottom having previously being raised by the downward vertical transporter 13, such that the bottom box 2, located on the active chassis 5, can be brought, by means of the lower transverse transporter 15, under the stack 3 of the stack 3 raised upward by the upward vertical transporter 12.

Likewise, the uppermost box 2 of the stack 3 of boxes 2, the stack being raised by at least one box height by means of the upward vertical transporter 12, is brought, by means of the upper transverse transporter 14, from said stack 3 of boxes 2 over the stack 3 of boxes 2 of the stack 3 of boxes 2 conveyed downward by the downward vertical transporter 13.

In the case of transverse transport by the upper transverse transporter 14, the boxes 2 are in each case cleaned by the cleaning module 11 and supplied with necessary materials, in particular substrate and/or food, by the supply module 12.

A box 2 ready for harvest can be unloaded by the active chassis 5, by means of the downward vertical transporter 13, the active chassis 5 being deflectable outwards by servomotors 29 such that said box 2 arrives on the conveyor belt 8 located between the chassis 4, 5, such that the box 2 ready for harvest can then be transported away.

Likewise, the conveyor belt 8 can convey a fresh box 2 comprising new insects and substrate, as well as food, to the device 1, and the loading of the fresh box 2 through the passive chassis 4, by means of the upward vertical transporter 12, the lifting fingers 17 of the passive chassis 4 being deflectable outwards upon loading of the fresh box 2, is made possible.

FIG. 2 shows the device 1 according to FIG. 1, but merely without the stack 3 of boxes 2 located on the passive 4 and active chassis 5. FIG. 2 shows the mutually opposing transport drives, i.e. the upward vertical transporter 12, the downward vertical transporter 13, the lower transverse transporter 15, and the upper transverse transporter 14, and also shows the conveyor belt 8 located between the chassis 4, 5, as well as the rail guide 7 on which the gantry 6 can be moved.

FIGS. 3a and 3b are perspective views from above and from below of the cleaning module 11 of the gantry 6 according to FIG. 1. In this case, the cleaning module 11 comprises two suction devices 34, one suction device 34 being attached laterally to the cleaning module 11, in order that this can be used for suctioning the waste, in particular the feces of the larvae, through a suction opening (not shown further here) of the boxes 2, and a further suction device 34 is attached under the cleaning module 11, such that said suction device 34 suctions the skins of the larvae out of the boxes 2 from above, in each case.

FIGS. 4a and 4b show the supply module 10 according to FIG. 1, in a perspective view from above and in cross section, the supply module 10 comprising two containers, at least one substrate container 35 and a food container 36, as well as one metering roller 37 arranged in each container. As a result of the advancement of the metering rollers 37 both in the substrate container 35 and in the food container 36, the correspondingly desired amount of the relevant material can be output from the supply module 10.

FIG. 5 is a perspective front view of the passive chassis 4 according to FIG. 1. The passive chassis 4 comprises a total of six lifting fingers 17, said lifting fingers 17 being passively deflectable towards the outside in the event of a fresh box 2 being loaded from below.

FIG. 6a is a perspective view of the active chassis 5 according to FIG. 1. The lifting fingers 17 of the active chassis 5 are connected by means of Bowden cables 30 to a web 38 of the active chassis 5. According to FIG. 6b , the lifting fingers 17 can be deflected outwards by actuating the web 38, in this case by pressing the web 38 downwards by means of a servomotor 29. Thus, a box 2 can be conveyed downward, through the active chassis 5, onto a conveyor belt 8 by means of the downward vertical transporter 13, following deflection of the lifting fingers 17 of the active chassis 5 by the servomotors 29, which are located on the gantry 6.

FIG. 7 shows one of four drive units of the upward vertical transporter 12 according to FIG. 1, said drive unit comprising a linear belt drive 16 and a lifting finger 17 having two lifting receptacles 25, the lifting finger 17 being deflectable towards the outside upon loading of a fresh box from below.

FIGS. 8a, 8b and 8c show one of four drive units of the downward vertical transporter 13, in a perspective front view in which the lifting pins 19 are retracted, in a perspective front view in which the lifting pins 19 are extended, and in a perspective rear view in which the lifting pins 19 are extended. FIG. 8a shows the lifting pins 19 guided by the lifting pin arm 18, said lifting pins 19 being connected to a roller 22 by means of a linear shaft 21, such that the lifting pins 19 are retracted by the roller guide 20.

FIG. 8b shows the lifting pins 19 which are extended on account of the roller guide 20 comprising deflection rockers 23, and the lifting pins 19 that are connected to a roller 22 by a linear shaft 21.

FIG. 8c is a perspective rear view of a drive unit of the downward vertical transporter 13 according to FIG. 8b . FIG. 8c shows that, when the lifting pin arm 18 of one drive unit of the downward vertical transporter 13 is moved down, the deflection rockers 23 are deflected such that the roller 22 which is connected to the lifting pins 19 via a linear shaft 21 is not deflected, such that the lifting pins 19 remain extended. Only when the lifting pin arm 18 is raised is the roller 22, which is connected to the lifting pins 19 by means of a linear shaft 21, deflected by the deflection rockers 23 of the roller guide 20 such that the lifting pins 19 are then retracted.

FIG. 9 is a perspective front view of one of two drive units of the lower transverse transporter 15 according to FIG. 1. The one drive units of the lower transverse transporter 15 contains an asymmetrical belt 27 and a horizontal drive 28. Upon deflection of the asymmetrical belt 27 by the horizontal drive 28, a box 2 can be grasped by the thicker side of the asymmetrical belt 27 and can thus be conveyed in a direction, i.e. in the direction in which the horizontal drive 28 deflects the asymmetrical belt 27.

FIG. 10 is a perspective front view of one of two drive units of the upper transverse transporter 14 according to FIG. 1. The drive unit of the upper transverse transporter 14 comprises a roller guide 20 having at least two rockers 26, a linear belt drive 16, a lifting arm 24 having at least two lifting receptacles 25, and a roller 22 which moves long the roller guide 20, the roller 22 being connected to the lifting arm 24 by means of a linear shaft 21.

If the lifting arm 24 has reached an end of the roller guide 20, and thus one of the rockers 26, the lifting arm 24 can be deflected by the roller guide 20, by means of the roller 22 which is connected to the lifting arm 24 by means of a linear shaft 21, such that a box 2 can be grasped by the linear belt drive 16 upon movement of the lifting arm 24. After a box 2 has been grasped, said box 2 remains grasped during the movement of the lifting arm 24 along the roller guide 20, until the next rocker 26. Upon reaching the next rocker 26, the lifting arm 24 is deflected by the roller 22 connected to the lifting arm 24 by means of a linear shaft 21, such that the box 2 can be deposited. The box 2 can thus be transported from left to right, or from right to left.

LIST OF REFERENCE SIGNS

-   1 device -   2 box -   3 stack -   4 passive chassis -   5 active chassis -   6 gantry -   7 rail guide -   8 conveyor belt -   9 profile system -   10 supply module -   11 cleaning module -   12 upward vertical transporter -   13 downward vertical transporter -   14 upper transverse transporter -   15 lower transverse transporter -   16 linear belt drive -   17 lifting finger -   18 lifting pin arms -   19 lifting pins -   20 roller guide -   21 linear shaft -   22 roller -   23 deflection rocker -   24 lifting arm -   25 lifting receptacles -   26 rocker -   27 asymmetrical belt -   28 horizontal drive -   29 servomotor -   30 Bowden cable -   34 suction device -   35 substrate container -   36 food container -   37 metering roller -   38 web 

1-16. (canceled) 17: A device (1) for breeding, in particular of insects, comprising a plurality of individual boxes (2) which are to be arranged in a stack (3) comprising a plurality of planes of boxes (2), said boxes (2) each being filled with larvae and substrate which contains inter alia food, and comprising an observation system by means of which information relating to the substrate and the status of the insects in each individual box (2) can be obtained, such that instructions, in the form of further breeding, harvest or disposal of the insects in the individual boxes (2), can be output on the basis of said information, and comprising a food dispensing system which is adapted such that the food can be dispensed automatically and individually into the relevant box (2), wherein the device (1) comprises at least one stack (3) of boxes (2), which is located on a chassis (4, 5), and a gantry (6), the gantry (6) at least having a supply module (10), a cleaning module (11), an upward vertical transporter (12), a downward vertical transporter (13), an upper transverse transporter (14) and a lower transverse transporter (15), and wherein a guide system, in particular a rail guide (7), is provided for the gantry (6) such that the gantry (6) can be moved to the at least two stacks (3) of boxes (2), and wherein a conveying system is provided, in particular a conveyor belt (8), it being possible to convey boxes (2) from and to the at least one stack (3) of boxes (2) by means of the conveying system such that, by means of the gantry (6), cyclical restacking, and supplying and cleaning of the insects within the boxes (2), within the at least one stack (3) of boxes (2), is made possible, and wherein boxes (2) can be loaded into and unloaded from the at least one stack (3) of boxes (2) by means of the conveying system and the gantry (6), the supply module (10) being divided into at least two containers (35, 36), said containers each being equipped individually with at least one metering roller (37), at least one container (35) being filled with substrate and at least one other container (36) being filled with food, such that in the event of transport by the upper transverse transporter (14) first substrate and subsequently food can be dispensed into a box (2), in the amount required in each case, by the adjustable advancement of the metering rollers (37). 18: The device (1) according to claim 17, wherein the gantry (6) is constructed from a profile system (9), in particular a profile system (9) made of aluminum, and/or from a welded structure. 19: The device (1) according to claim 17, wherein the upward vertical transporter (12) of the gantry (6) comprises opposingly, individually in each case, at least two drive units containing at least two linear belt drives (16) and at least two lifting fingers (17) on each drive, the lifting fingers (17) being loadable in the case of an upward movement, achieved by the drive, of the upward vertical transporter (12), and thus a weight, in particular a weight of a box (2), can be absorbed, and wherein the lifting fingers (17) can be deflected outwards by means of insertion of a box (2) from the conveyor belt (8) through the passive chassis (4) from below, as a result of which the hooking and unhooking for the transport of the boxes (2), by the upward vertical transporter (12), can be performed passively. 20: The device (1) according to claim 17, wherein the downward vertical transporter (13) of the gantry (6) opposingly, individually in each case, at least two drive units containing at least two linear belt drives (16) and at least two lifting pin arms (18) having at least two lifting pins (19) connected to a roller (22), and a roller guide (20) comprising deflection rockers (23), such that the lifting pins (19) of a lifting pin arm (18), connected to at least one roller (22), can be deflected by the roller guide (20) in the case of a downward movement of the downward vertical transporter (13) such that one box (2) can be held by the lifting pins (19) in each case, and said box (2) can be transported downward, in the case of the upward movement of the downward vertical transporter (13), the lifting pins (19) connected to a roller (22) being deflectable by a deflection rocker (23) in the roller guide (20) such that the downward vertical transporter (13) can be moved upward, without the lifting pins (19) being extended, and thus no box (2) can be grasped, such that a further box (2) can be received by a linear belt drive (16), for the purpose of the downward movement of the downward vertical transporter (13), by means of the lifting pin arms (18) and the lifting pins (19) thereof that are connected to a roller (22), using the roller guide (20) and the deflection rockers (23) thereof. 21: The device (1) according to claim 17, wherein the upper transverse transporter (14) of the gantry (6) comprises opposingly, individually in each case, at least one drive unit which a linear belt drive (16), a lifting arm (24) having at least two lifting receptacles (25), a roller (22) on the lifting arm (24) which is coupled by means of a linear shaft (21), and a roller guide (20) comprising at least two rockers (26), such that in the case of a movement of the lifting arm (24) by a linear belt drive (16) having a roller (22) coupled via a linear shaft (21), along the roller guide (20), the lifting arm (24) can be pivoted out by a rocker (26) on the roller guide (20) such that a box (2) can be received and can be moved from left to right and/or from right to left, such that at a further rocker (26) of the roller guide (20) a box (2), a lifting arm (24) can be deflected by a roller (22) fastened to the lifting arm (24) by means of a linear shaft (21), such that a box (2) can be deposited. 22: The device (1) according to claim 17, wherein the lower transverse transporter (15) of the gantry (6) contains opposingly, individually in each case, a vertically oriented asymmetrical belt (27) which can be moved vertically by means of a horizontally oriented drive (28), the asymmetrical belt (27) being of such a thickness, on one side, that a box (2) can be grasped and moved from left to right and/or from right to left by means of a horizontally oriented drive (28), on account of the vertical movement of the asymmetrical belt (27). 23: The device (1) according to claim 17, wherein the gantry (6) comprises servomotors (29), and wherein the active chassis (5) contains a connection element, in particular a web (38), which is fastened to the Bowden cables (30) fastened to the lifting fingers (17), the connection element being actuatable by the servomotors (29) on the gantry (6) such that the lifting fingers (17) of the active chassis (5) can be deflected outwards by means of actuating the servomotors (29), as a result of which a box (2) that is ready for harvest can be unloaded downward onto a conveyor belt (8), through the active chassis (5), by means of the downward vertical transporter (13). 24: The device (1) according to claim 17, wherein a detection unit is provided in the gantry (6), which unit comprises sensors, in particular heat sensors and humidity sensors, and/or a camera, it being possible to determine the parameters required for insect breeding, in particular humidity and temperature, inside a box (2) by means of said sensors, and wherein the images acquired by the camera, which reproduce the state of the insects with supply materials in a box (2), can be compared, by a database, with reference data, such that it is possible, in each case, to determine the relevant supply state of the insects inside a box (2), and the information thus obtained can be used for machine learning. 25: The device (1) according to claim 17, wherein the boxes (2) in each case comprise a double base and at least one suction opening between the bases, the upper base of the double base being constructed as a grating-like base, such that in particular waste inside the box (2), in particular the feces of the larvae, falls through said grating-like base, and said waste can be removed by the cleaning module (11), through the suction opening between the double base. 26: The device (1) according to claim 25, wherein the cleaning module (11) comprises at least two suction devices (34), it being possible for the waste to be suctioned through the suction opening of a box (2), between the double base, by means of at least one suction device (34), and wherein the skins of the larvae as well as any food residues and other waste present inside the box (2) can be suctioned out during the transport by the upper transverse transporter (14), and/or taken up by means of electrostatics, and/or removed by means of air separation, by means of at least one second suction device (34). 27: The device (1) according to claim 26, wherein the boxes (2) comprise an RFID chip or another passive electronic chip, and/or a barcode, and/or a 2D matrix, such that data, in particular state data of the boxes (2), can be stored and retrieved, as a result of which it is possible to carry out instructions on the basis of the storable and retrievable data. 28: The device (1) according to claim 17, wherein a station is present for the gantry (6), in which the cleaning module (11) can optionally be emptied, and wherein the containers (35, 36) of the supply module (10) can be refilled with the materials required in each case, in particular substrate and/or food. 29: The device (1) according to claim 17, wherein the stacks (3) of boxes (2) can be lined up one behind the other, lengthways, as often as desired, and wherein said stacks (3) of boxes (2) lined up lengthways can be lined up side-by-side, such that the device (1) can be optimally adapted to the local conditions, in particular the length, the width and the height of an industrial building, and thus optimum use can be made of the local conditions. 30: The device (1) according to claim 29, wherein at least one conveyor belt (8) is arranged orthogonally to the stacks (3) of boxes (2), such that said stacks (3) of boxes (2) can be supplied with new boxes (2) comprising insects and supply materials from a store, by means of said orthogonal conveyor belt (8), and wherein boxes (2) ready for harvest can be transported away from the stacks (3) of boxes (2) and into a store, by means of said at least one conveyor belt (8) which is directed orthogonally with respect to the stacks (3) of boxes (2). 31: A method having the device according to claim 17, wherein the lowest box (2) of the stack (3), in each case, which is located on the passive chassis (4), is raised, by at least one box height, by means of the upward vertical transporter (12), at the same time, in the case of the downward vertical transporter (13), the second box (2) from the bottom, from the stack (3) of the active chassis (5), being raised, such that the bottom box (2) of the stack (3) on the active chassis (5) is brought, by means of the lower transverse transporter (15), under the stack (3) raised by the upward vertical transporter (12), and wherein the second from bottom raised box (2) is moved downward by the downward vertical transporter (13) by at least one box height, the uppermost box (2) of the stack (3), which is raised by one box height, by means of the upward vertical transporter (12), likewise being brought over the stack (3) of boxes (2), located on the active chassis (5), by means of an upper transverse transporter (14), during the transport of the box (2) by means of the upper transverse transporter (14), the box (2) comprising insects and the supply materials thereof being cleaned, and optionally equipped with corresponding supply materials, by means of a cleaning (11) and supply module (10), and the described transport procedure being performed until all the boxes (2) of the at least two stacks (3) are cleaned and optionally equipped with corresponding supply materials, by means of a cleaning (11) and supply module (10), and wherein a box (2) ready for harvest, the readiness of a box (2) for harvest being determined by means of a detection unit, during the cleaning and equipping with supply materials, is conveyed through the stack (3) of boxes (2), located on the active chassis (5), by means of the downward vertical transporter (13), until it reaches the active chassis (5), the active chassis (5) being deflected outwards, such that the box (2) ready for harvest is unloaded onto the conveyor belt (8), through the active chassis (5), by means of the downward vertical transporter (13), and wherein a new box (2) comprising insects and supply materials, which is conveyed under the passive chassis (4) by means of the conveyor belt (8), is loaded through the passive chassis (4) by means of the upward vertical transporter (12), the passive chassis (4) being deflected outwards by means of the box (2), upon loading, into the stack (3) of boxes (2) located on the passive chassis (4), such that automated insect breeding is carried out. 